CN113791493B - Quick reflector based on macro-micro two-stage composite actuation - Google Patents

Abstract

The invention provides a quick reflector device based on macro-micro two-stage composite actuation, which comprises a base, a displacement sensor, a voice coil motor driving part, a piezoelectric ceramic combined bridge type displacement amplification mechanism, a micro-motion part, a flexible thin rod, a flexible hinge body, a movable platform, a mirror frame component and a reflector, wherein the voice coil motor driving part is a macro-motion part; the macro-motion part of the voice coil motor provides a large stroke, the micro-motion part driven by the piezoelectric ceramics provides a small stroke and ultrahigh precision, one macro-motion part and one micro-motion part are connected and combined into a macro-micro double-motion actuating mechanism through a bridge type amplifying mechanism, the movable platform drives the mirror frame reflector load to rotate around the plane X axis and the plane Y axis of the reflector under the driving of the macro-micro double-stage actuating mechanism, the displacement sensor detects and feeds back the precise motion information of the load, and the flexible hinge body is provided with multiple Hooke hinges and can provide normal displacement of the mirror surface. The invention has the advantages of large stroke and ultrahigh precision, and simultaneously has the movement in three freedom directions.

Description

Quick reflector based on macro-micro two-stage composite actuation

Technical Field

The invention relates to a quick reflector based on macro-micro two-stage composite actuation, and belongs to the technical field of quick reflector precision instrument optical-mechanical structure design.

Background

The fast reflector is an advanced photoelectric device which can realize the adjustment of the light beam direction by fast and accurately controlling the deflection angle of the reflector surface, is one of the core components which support the breakthrough of the new generation information technology such as precise transceiving matching control, ground calibration and the like and the key aerospace engineering technology, and is widely applied to the fields of space mapping, astronomical telescopes, laser detection and communication, adaptive optics, photoelectric device visual axis stabilization and the like which need precise pointing, tracking and stabilization.

The rapid development of the information technology and the aerospace field has prompted the requirement of space tasks on both large stroke and ultrahigh precision, the fast reflector based on the voice coil motor or the piezoelectric ceramic drive which is widely applied at present respectively corresponds to two types of devices of large stroke high precision and small stroke ultrahigh precision, is limited by the structure and the characteristics of the drive, is difficult to independently realize the breakthrough of simultaneously meeting the performances of the large stroke and the ultrahigh precision, and becomes one of the key problems which restrict the further development of the fast reflector and realize the breakthrough of advanced equipment of key aerospace engineering.

Disclosure of Invention

The technical problem to be solved by the invention is as follows: overcome prior art's not enough, provide a quick speculum based on two-stage is compound actuates macroscopically, satisfy big stroke, super high accuracy simultaneously to possess stronger bearing capacity and the good advantage of anti strong impact property, can effectively solve current quick speculum moreover and can not compromise big stroke scope and the problem of super high accuracy, when meeting with strong impact in delivery or emission process simultaneously, protection quick speculum structure that can be better.

The technical scheme of the invention is as follows: a quick reflector based on macro and micro two-stage composite actuation comprises a base, a displacement sensor, a macro moving part, a micro moving part, a flexible thin rod, a flexible hinge body, a moving platform, a mirror frame component and a reflector; the macro-motion part is a voice coil motor motion part, provides a linear stroke range of 1-50 mm level, and can ensure that the quick reflector has a large stroke deflection range from milliradian to hundreds of radians; the micro-motion part refers to a piezoelectric ceramic driving part and a bridge type amplification mechanism, the precision of the output displacement of the piezoelectric ceramic can reach the nanometer level, and the rapid reflector can be ensured to have the nanometer radian level (namely 10- ⁹ Radian) of the rotational angle of the rotor. The voice coil motor and the piezoelectric ceramic are connected in a combined manner through the bridge type amplifying mechanism, so that the rapid reflecting mirror can be ensured to have the performances of large stroke and ultrahigh precision;

the macro-motion part is driven by a voice coil motor, and the voice coil motor comprises a voice coil motor stator and a rotor; the micro-motion part is a piezoelectric ceramic combined bridge type displacement amplification mechanism and consists of piezoelectric ceramic and a bridge type displacement amplification mechanism;

the mirror frame component comprises a mirror frame, a fastening plate, a spring for providing pretightening force and a mounting screw, the reflector is fastened by adjusting an external fastening screw acting on the fastening plate, and three anti-lock holes are circumferentially and equidistantly arranged at the outer edge of the mirror frame; the mirror frame component is fixed on the movable platform to form a rotating load together, and the geometric centers of the mirror frame component, the reflector and the movable platform are coaxial; the movable table is fixed on the upper part of the flexible hinge body through a plurality of bolts, and the lower part of the flexible hinge body is fixedly arranged on the base;

the flexible hinge body is composed of multiple Hooke hinges and is distributed in the orthogonal X-axis and Y-axis directions with the geometric center of the flexible hinge body as the origin; the multiple Hooke joints ensure that the flexible hinge body has translational freedom on a Z axis in the normal direction of the mirror surface; the geometric centers of the upper mounting surface and the lower mounting surface of the flexible hinge body are coaxial with the geometric centers of the movable platform and the base;

the middle of each of two connecting arms of the bridge type amplification mechanism is provided with a hole, a spring is arranged in each hole, the piezoelectric ceramics which are transversely installed are connected with the bridge type amplification mechanism through the springs and are fastened through bolts, and transverse displacement output by the piezoelectric ceramics is vertical displacement in the normal direction of the mirror surface and is used for driving the reflector to move;

the stator of the voice coil motor is fixed on the lower part of the bridge type amplification mechanism in the micro-motion part, and the rotor is fixed on the base and outputs displacement in the vertical direction;

the movable table drives the mirror frame component to rotate around the X axis and the Y axis of the plane of the reflector under the driving of a macro-micro two-stage actuating mechanism, and the displacement sensor detects and feeds back load precision motion information to move;

a macro-motion part and a micro-motion part are connected and combined into a macro-micro double-motion actuating mechanism through a bridge type amplification mechanism, a moving platform drives a mirror frame reflector load to rotate around a reflector plane X axis and a reflector plane Y axis under the driving of the macro-micro double-stage actuating mechanism, a displacement sensor detects and feeds back load precision motion information, and a flexible hinge body is provided with multiple Hooke hinges and provides normal displacement of a mirror surface.

The quick reflector device is characterized in that the equidirectional micro-motion part and the macro-motion part are combined into a macro-micro double-stage actuating mechanism through the bridge type amplifying mechanism, the quick reflector device is provided with two macro-micro double-stage actuating mechanisms in the rotating directions around the X axis and the Y axis respectively, when the two coaxial macro-micro double-stage actuating mechanisms are electrified oppositely, the two mechanisms can output equivalent and reverse vertical displacement to realize one-push-one-pull, and therefore the rotating load including the reflector rotates around the shaft.

The movable platform is further connected with four flexible thin rods, threads are reserved on the upper portion of each flexible thin rod and are fastened with the movable platform through nuts, threads are reserved on the lower portion of each flexible thin rod and are respectively connected with the upper portion of a bridge type amplification mechanism with a threaded hole, the middle portion of each flexible thin rod is a flexible long and thin rod piece structure, the diameter of each flexible thin rod is far smaller than the length of each flexible thin rod piece structure, and the shearing displacement and the stress of the bridge type amplification mechanism are effectively reduced when the movable platform rotates including a reflector and a mirror frame.

The bridge type amplification mechanism is bilaterally symmetrical and comprises two upper arms, two lower arms, two connecting arms which are arranged between the upper portion and the lower portion and are connected with each other through straight beam type flexible hinges, and the arms are regarded as entities formed by cutting certain angles of cuboids.

The number of the micro-motion parts is 3-4, and the micro-motion parts are symmetrically distributed at equal intervals relative to the geometric central axis of the rotary load.

Each Hooke joint in the multiple Hooke joints is formed by a straight-circle flexible hinge, and the thickness and the semi-circle cut radius parameters of all the straight-circle flexible hinges are the same.

The number of the macro-moving parts is 3-4, and the macro-moving parts are distributed in an equidistant and symmetrical mode relative to the geometric central axis of the rotating load.

The displacement sensor comprises a body and an induction sheet, wherein the body of the displacement sensor is fixed on the base, and the induction sheet is installed on the movable table and used for feeding back displacement angle information of the device.

Compared with the prior art, the invention has the beneficial effects that:

(1) the fast reflector adopts a bridge type amplification mechanism to combine and connect the piezoelectric ceramic micro driver and the voice coil motor macro driver, can change the deflection angle of the reflector in real time in a large stroke range and ultra-high precision, adjust the transmission direction in an optical system, and realize the functions of light beam pointing scanning, tracking and aiming, optical image stabilization and the like.

(2) The voice coil motor with large stroke and ultrahigh precision movement are considered, the defects that the existing voice coil motor or the piezoelectric ceramic driven independently cannot meet the requirements of large stroke and ultrahigh precision of the fast reflector can be solved by combining the voice coil motor with large stroke and the ultrahigh precision piezoelectric ceramic in the fast reflector structure, and finally the advantages of large stroke of several milliradians to hundreds of milliradians and ultrahigh precision of nano radian level can be achieved.

(3) High impact resistance. The mirror frame is provided with anti-lockhole, and the quick speculum can be locked by external mechanical device during delivery or transmission, can avoid damaging the structure when the impact vibration that brings when the external world makes the mechanism beat exceed maximum safe stress value.

(4) The structure is compact. The piezoelectric ceramics are transversely arranged in the bridge type amplifying mechanism, so that the normal size of the mirror surface of the device can be effectively reduced.

(5) The visual field range can be adjusted in height. The flexible articulated body with multiple Hooke's joints can move along the normal direction of the mirror surface when the macro-micro actuating mechanism is introduced with electric signals with the same value and the same direction.

(6) The bearing capacity is strong. The movable platform is supported by the upper part of the macro-micro actuating mechanism combined by the macro-moving part and the micro-moving part in a manner of combining with the flexible thin rod, and the lower part of the macro-micro actuating mechanism is arranged on the base, so that the macro-micro actuating mechanism and the flexible hinge body can support a rotating load together, and the bearing capacity of the rapid reflecting mirror is enhanced.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings needed to be used in the description of the embodiments are briefly introduced below, and it is obvious that the drawings in the following description are some embodiments of the present invention, and it is obvious for those skilled in the art to obtain other drawings based on these drawings without creative efforts.

FIG. 1 is a diagram of a macro and micro two-stage actuated fast mirror according to an embodiment of the present invention;

FIG. 2 is a cross-sectional view of a macro and micro two-stage actuated fast mirror structure according to an embodiment of the present invention;

FIG. 3 is a diagram of an overall structure of a totally mounted macro and micro two-stage actuated fast mirror according to an embodiment of the present invention;

FIG. 4 is a schematic diagram of a flexible hinge body with multiple Hooke's joints according to an embodiment of the present invention, wherein the left view is an axial view of the flexible hinge body and the right view is a sectional view of the flexible hinge body;

FIG. 5 is a schematic diagram of the entire structure of the micro-motion portion of the piezoelectric ceramic combined with the bridge type amplification mechanism according to the embodiment of the present invention, wherein the left drawing is a partial cross-sectional view of the structure, and the right drawing is an axial view of the structure;

Detailed Description

The present invention will be described in detail below with reference to the accompanying drawings and examples.

As shown in fig. 1 to 3, the biaxial stable fast mirror device based on a flexible hinge of the present invention comprises: the device comprises a base 1, a displacement sensor, a macro-motion part which is formed by a voice coil motor 3, a micro-motion part which is formed by piezoelectric ceramics 4 and a combined bridge type displacement amplification mechanism 5, a flexible thin rod 6, a flexible hinge body 7, a movable platform 8, a mirror frame component 9 and a reflector 10; the voice coil motor 3 includes a voice coil motor stator 301 and a mover 302. The displacement sensor comprises two parts, namely a displacement sensor body 2 and a sensing sheet 14, and the displacement sensor comprises an eddy current sensor, a capacitance/resistance sensor and the like.

As shown in fig. 1, 2 and 3, the mirror frame assembly 9 is fastened to the reflector 10 by adjusting an external set screw 12 acting on a fastening plate 11, and three anti-locking holes 13 are circumferentially and equidistantly arranged at the outer edge of the mirror frame and can be locked by an external mechanical device when strong impact is encountered during carrying or launching; the lens frame assembly 9 is fixed on the movable platform 8 to form a rotating load together, and the geometric centers of the lens frame assembly 9, the reflector 10 and the movable platform 8 are coaxial; the movable platform 8 is fixed on the upper part of the flexible hinge body 7 through a plurality of bolts, the lower part of the flexible hinge body 7 is installed on the fixed base 1, and the flexible hinge body 7 can support a rotary load. In addition, the upper part of the macro-micro actuating mechanism combined by the four macro-moving parts and the four micro-moving parts is combined with the flexible thin rod to support the movable table 8, and the lower part of the movable table is arranged on the base 1; the macro and micro actuating mechanisms are distributed equidistantly and symmetrically relative to the geometric central axis of the rotary load. The upper parts of the flexible thin rods 6 are provided with threads and are fastened with the movable platform 8 through nuts, the lower parts of the flexible thin rods 6 are provided with threads and are respectively connected with the upper parts of the bridge type amplification mechanisms 5 with threaded holes, the middle parts of the flexible thin rods 6 are flexible thin rod piece structures with diameters far smaller than the length, and the diameters of the middle parts of the flexible thin rods are determined according to the instability condition of the flexible thin rods and the design bandwidth of the quick reflector. The voice coil motor stator 301 in the macro-motion part is installed on the lower part of the bridge type amplification mechanism 5 in the micro-motion part through bolts, and the rotor is installed on the base 1 and can output displacement in the vertical direction. The displacement sensor body 2 is fixed on the base 1, and the induction sheet 14 is installed on the movable table 8 and used for feeding back displacement angle information of the device.

As shown in fig. 1 to 4, the flexible hinge body 7 has multiple hooke's joints, which are distributed in orthogonal X-axis and Y-axis directions, which are also the X-axis and Y-axis directions of the mirror 10 around the axis; the multiple Hooke's hinge 7 has small rigidity in the mirror surface normal Z-axis direction, can deform under the action of driving force, and can ensure that the flexible hinge body 7 has translational freedom in the mirror surface normal Z-axis direction. The flexible hinge body 7 is of an axisymmetric structure, and the geometric centers of the upper mounting surface and the lower mounting surface are coaxial with the geometric centers of the movable platform 8 and the base 1; the Hooke hinge of the flexible hinge body 7 is composed of a straight round flexible hinge, and the thickness, the width and the semi-circle cut radius parameters of all the straight round flexible hinges are the same. Under normal conditions, the thickness, the width and the semicircular notch radius parameters of the straight-circular flexible hinge can influence the rigidity and the design life of the mechanical structure of the fast reflector, the smaller the thickness and the width of the straight-circular flexible hinge are, the lower the rotational rigidity of the straight-circular flexible hinge is, the higher the processing difficulty and the cost are, the larger the notch radius is, the lower the rotational rigidity of the structure is, and the improvement of the bandwidth of the fast reflector can be limited. Therefore, in the design process, the thickness, the width and the semi-circle notch radius parameters of the straight-circular flexible hinge are determined in a compromise mode according to factors such as design life, processing technology, processing cost and overall performance indexes.

As shown in fig. 3 and 5, the bridge type amplification mechanism 5 is bilaterally symmetrical and comprises two connecting arms which are respectively arranged at the left and right between two upper arms, two lower arms and two upper and lower parts, the arms are connected through a straight beam type flexible hinge, and four corners of the bridge type amplification mechanism 5 are partially cut by wires, namely the arms can be regarded as a solid formed by cutting certain corners of a cuboid wire, so that the structural weight can be reduced. As with the flexible hinge body 7, the thickness, width and length of the straight beam type flexible hinge in the bridge amplification mechanism 5 are determined by compromise based on design life, processing technology, processing cost, overall performance index, and the like. The micro-motion part comprises a bridge type amplification mechanism 5 and piezoelectric ceramics 4. The middle of two connecting arms of the bridge type amplification mechanism 5 is provided with a hole, a spring 15 is arranged in the hole to provide certain pretightening force, the piezoelectric ceramics 4 which are transversely installed are connected with the bridge type amplification mechanism 5 through the spring and are fastened through bolts, and the transverse displacement output by the piezoelectric ceramics 4 is output as the vertical displacement in the normal direction of the mirror surface through the bridge type amplification mechanism 5 and is used for driving the reflector 10 to move.

The invention relates to a macro-micro two-stage composite actuation-based quick reflecting mirror, which has the working modes that: a micro-motion part and a macro-motion part which are installed in the same direction are combined into a macro-micro double-stage actuating mechanism, two macro-micro double-stage actuating mechanisms are respectively arranged on the quick reflector device in the rotating direction around the X axis and the Y axis, when the two coaxial macro-micro double-stage actuating mechanisms are electrified and are in equivalent reversal, the two mechanisms can output equivalent reversed vertical displacement, one push and one pull are realized, and therefore the rotating load including the reflector 10 rotates around the shaft. When all macro and micro double-stage actuating mechanisms input equivalent homodromous electric signals, the multiple hinges of the flexible hinge 7 ensure that the reflector 10 realizes the translational motion in the normal direction of the mirror surface.

While the invention has been described in connection with what is presently considered to be the most practical and preferred embodiment, it is to be understood that the invention is not to be limited to the disclosed embodiment, but on the contrary, is intended to cover various modifications and equivalent arrangements included within the spirit and scope of the appended claims.

Claims (7)

1. The utility model provides a quick speculum based on compound two-stage is moved to macro-micro, its characterized in that: the device comprises a base, a displacement sensor, a macro-motion part, a micro-motion part, a flexible thin rod, a flexible hinge body, a movable platform, a mirror frame assembly and a reflector; the macro-motion part refers to a voice coil motor actuating part; the micro-motion part refers to a piezoelectric ceramic driving part and a bridge type amplification mechanism, and the voice coil motor and the piezoelectric ceramic two drivers are connected in a combined mode through the bridge type amplification mechanism;

the voice coil motor comprises a voice coil motor stator and a rotor; the stator of the voice coil motor is arranged at the lower part of the bridge type amplification mechanism in the micro-motion part, and the rotor is arranged on the base and outputs displacement in the vertical direction;

the mirror frame component comprises a mirror frame, a fastening plate, a spring for providing pretightening force and a mounting screw, the reflector is fastened by adjusting an external fastening screw acting on the fastening plate, and three anti-lock holes are circumferentially and equidistantly arranged at the outer edge of the mirror frame; the mirror frame component is fixed on the movable platform to form a rotating load together, and the geometric centers of the mirror frame component, the reflector and the movable platform are coaxial; the movable table is fixed on the upper part of the flexible hinge body through a plurality of bolts, and the lower part of the flexible hinge body is fixedly arranged on the base;

the flexible hinge body is composed of multiple Hooke hinges and is distributed in the orthogonal X-axis and Y-axis directions with the geometric center of the flexible hinge body as the origin; the multiple Hooke joints ensure that the flexible hinge body has translational freedom on a Z axis in the normal direction of the mirror surface; the geometric centers of the upper mounting surface and the lower mounting surface of the flexible hinge body are coaxial with the geometric centers of the movable platform and the base;

the middle of each of two connecting arms of the bridge type amplification mechanism is provided with a hole, a spring is arranged in each hole, the piezoelectric ceramics which are transversely installed are connected with the bridge type amplification mechanism through the springs and are fastened through bolts, and transverse displacement output by the piezoelectric ceramics is vertical displacement in the normal direction of the mirror surface and is used for driving the reflector to move;

the macro-motion part and the micro-motion part are connected and combined into a macro-micro double-motion actuating mechanism through a bridge type amplification mechanism, the moving platform drives the mirror frame reflector load to rotate around the plane X axis and the plane Y axis of the reflector under the driving of the macro-micro double-stage actuating mechanism, the displacement sensor detects and feeds back load precision motion information, and the flexible hinge body is provided with multiple Hooke hinges and provides normal displacement of the mirror surface.

2. The fast reflecting mirror based on macro and micro two-stage composite actuation as claimed in claim 1, wherein: the movable platform is further connected with four flexible thin rods, threads are reserved on the upper portion of each flexible thin rod and are fastened with the movable platform through nuts, threads are reserved on the lower portion of each flexible thin rod and are respectively connected with the upper portion of a bridge type amplification mechanism with a threaded hole, the middle portion of each flexible thin rod is a flexible long and thin rod piece structure, the diameter of each flexible thin rod is far smaller than the length of each flexible thin rod piece structure, and the shearing displacement and the stress of the bridge type amplification mechanism are effectively reduced when the movable platform rotates including a reflector and a mirror frame.

3. A fast reflecting mirror based on macro and micro two-stage composite actuation according to claim 1 or 2, characterized in that: the bridge type amplification mechanism is bilaterally symmetrical and comprises two upper arms, two lower arms, two connecting arms which are arranged between the upper portion and the lower portion and are connected with each other through straight beam type flexible hinges, and the arms are regarded as entities formed by cuboid cutting angles.

4. The fast reflecting mirror based on macro and micro two-stage composite actuation as claimed in claim 1, wherein: the number of the micro-motion parts is 3-4, and the micro-motion parts are symmetrically distributed at equal intervals relative to the geometric central axis of the rotary load.

5. The fast reflecting mirror based on macro and micro two-stage composite actuation as claimed in claim 1, wherein: each Hooke joint in the multiple Hooke joints is formed by a straight circular flexible hinge, and the thickness and the semicircular notch radius parameters of all the straight circular flexible hinges are the same.

6. The fast reflecting mirror based on macro and micro two-stage composite actuation as claimed in claim 1, wherein: the number of the macro-moving parts is 3-4, and the macro-moving parts are symmetrically distributed at equal intervals relative to the geometric central axis of the rotating load.

7. The fast reflecting mirror based on macro and micro two-stage composite actuation as claimed in claim 1, wherein: the displacement sensor comprises a body and an induction sheet, wherein the body of the displacement sensor is fixed on the base, and the induction sheet is installed on the movable table and used for feeding back displacement angle information of the device.

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